Power Consumption and Gas - Liquid Mass Transfer Volumetric Coefficient in a Mechanically Agitated Vessel with Wire - Gauze Impeller

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概要

• 論文の詳細を見る

• Power consumption and gas-liquid mass transfer volumetric coefficient in a mechanically agitated vessel with wire-gauze impeller were measured over a wide range of Reynolds number. The power consumption of the wire-gauze impeller did not decrease so much with aeration and was almost independent of the gas flow rate in the turbulent flow region, contrast to that of conventional impellers such as turbine and paddle. The agitation power correlation of the wire-gauze impeller was proposed in the operating condition of the gross circulation of the gas back into the impeller. The mass transfer volumetric coefficient was empirically correlated with both the physical properties of liquid and the agitation and aeration power input per unit liquid volume in the same manner as that by Nishikawa et al. (1981b), where it depended on the void fraction of the wire-gauze blade.

• 社団法人 化学工学会の論文

著者

• Tada Yutaka

  Department of Life and Materials Engineering, Nagoya Institute of Technology

• HIRAOKA Setsuro

  Department of Applied Chemistry, Nagoya Institute of Technology

• Kato Yoshihito

  Department Of Communications And Systems The University Of Electro-communications(present Address):i

• Takeda Yasuhiro

  Department Of Life And Materials Engineering Nagoya Institute Of Technology

• Tada Yutaka

  Department Of Life And Materials Engineering Nagoya Institute Of Technology

• Kato Yoshihiro

  Department Of Life And Materials Engineering Nagoya Institute Of Technology

• Ukai Yoshio

  Department Of Applied Chemistry Nagoya Institute Of Technology

• KAI Shinichiro

  Department of Applied Chemistry, Nagoya Institute of Technology

• INOUE Naoaki

  Department of Applied Chemistry, Nagoya Institute of Technology

• Inoue Naoaki

  Department Of Applied Chemistry Nagoya Institute Of Technology

• Kai Shinichiro

  Department Of Applied Chemistry Nagoya Institute Of Technology

• Hiraoka S

  Department Of Life And Material Engineering Nagoya Institute Of Technology

• Tada Yutaka

  Department Of Life And Material Engineering Nagoya Institute Of Technology

• Tada Yutaka

  Department of Applied Chemistry, Nagoya Institute of Technology

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